Zeta potential modifiers to decrease the residual oil saturation

ABSTRACT

Compositions comprise an amine component, an aminephosphate component and may also include a solvent component. The compositions are adapted to coat solid materials, substrates and/or surfaces of producing of reservoirs and formations and methods for making and using same, where the coating agents modify surface properties of the solid materials, substrates and/or surfaces of producing formations decreasing residual oil saturation.

RELATED APPLICATIONS

This application is a divisional application of U.S. patent applicationSer. No. 12/832,222, filed 8 Jul. 2010 (Jul. 08, 2010), now U.S. Pat.No. issued, which is continuation-in-part of U.S. patent applicationSer. No. 12/151,429, filed May 06, 2008, now U.S. Pat. No. 7,956,017issued 7 Jun. 2011 (Jun. 07, 2011), which is a divisional application ofU.S. patent application Ser. No. 11/298547, filed Dec. 09, 2005, nowU.S. Pat. No. 7,392,847, issued Jul. 01, 2008 and/or of U.S. patentapplication Ser. No. 12/075,461, filed Mar. 11, 2008, now United StatesPatent No. 7,829,510 issued 9 Nov. 2010 (Nov. 09, 2010), which is adivisional application 11/298,556, filed Dec. 09, 2005, now U.S. Pat.No. 7,350,579, issued Apr. 01, 2008. These patents and applications areincorporated by reference through the operation of the last paragraph ofthe specification.

BACKGROUND OF THE INVENTION

1. Field of the Invention

Embodiments of the present invention relate to coating composition forimproving oil production, which is adapted to coat solid materials,particles, substrates and/or surfaces of producing formations andmethods for making and using same.

More particularly, embodiments of the present invention relates tocompositions for improving oil production, where the compositionsinclude an amine component, an aminephosphate ester component andoptionally a solvent component, the compositions are adapted to coatsolid materials, substrates and/or surfaces of producing formations andmethods for making and using same, where the coating agents modifysurface properties of the solid materials, substrates and/or surfaces ofproducing formations to increase oil flow through producing formations,to decrease oil layers adhered to surfaces of the producing formationand to decrease a capillary pressure on the formation. 2. Description ofthe Related Art

Historically, the use of different chemical systems has been proposed toincrease oil production. Some successful applications are injection ofpolymers, which can either reduce the viscosity of the production fluids(crude oil) or increase the viscosity of water. Injection of water oraqueous solutions with increased viscosity has also been used to forcethe crude out of the stratum.

Tensioactive systems, such as surfactants, have been injected to lowerthe capillary pressure that impedes oil droplets from moving through theformation or reservoir. This approach has been followed by many servicecompanies in squeeze jobs or in enhanced oil recovery operations.

While there are known methods and compositions for increasing oilproduction from oil producing formations, there is still a need in theart for new methods and compositions that can be employed to increaseoil production and/or decrease a resistance to oil droplets traversingthe formation.

SUMMARY OF THE INVENTION Compositions

Embodiments of the present invention provide coating compositionsadapted to form a coating on surfaces of a producing reservoir orformation or the surfaces of the producing formation and particles,synthetic or natural, in the producing formation or added to theproducing formation through fracturing operations. The coating isadapted to modify surface properties or the surfaces and the particlesdecreasing oil residual saturation through producing reservoir orformation, where the coatings include an amine component, anaminephosphate ester component and optionally a solvent component.

The present invention provides an amine component, an aminephosphateester component and optionally a solvent component capable toprecipitate in reservoir or formation substrate where the coating isdeformable and where the substrate is ideally suited for modifyingsurface properties or the surfaces and the particles in a producingformation to decrease residual oil saturation.

Method for Treating

The present invention provides a method for modifying surface propertiesof surfaces or the surfaces and particles in producing formations, wherethe method includes the step of contacting the surfaces or surfaces andparticles with a composition under conditions sufficient to form apartial or complete coatings on surfaces or surfaces and particles,where the compositions includes an amine component, an aminephosphateester component and optionally a solvent component.

Methods for Using the Treating Methods

The present invention provides a method for producing including the stepof circulating and/or pumping a fluid into a producing reservoir orformation, where the fluid includes a coating composition of thisinvention. The coating is adapted to modify surface properties or thesurfaces and the particles decreasing oil residual saturation throughproducing reservoir or formation, where the coatings include an aminecomponent, an aminephosphate ester component and optionally a solventcomponent.

BRIEF DESCRIPTION OF THE DRAWINGS

The invention can be better understood with reference to the followingdetailed description together with the appended illustrative drawings inwhich like elements are numbered the same:

FIG. 1 shows the results of the inhibition tests (USBM) in a plot ofoil/brine capillary pressure in psi versus water saturation (percentpore space) of Berea sandstone samples.

DETAILED DESCRIPTION OF THE INVENTION

The inventors have found that a composition can be produced that, whenadded to a particulate metal-oxide-containing solid or other solidmaterials or to a suspension or dispersion including a particulatemetal-oxide-containing solid or other solid materials, the particles aremodified so that an aggregation propensity, aggregation potential and/ora zeta potential of the particles are altered. The inventors have alsofound that metal-oxide-containing solid particles or other solidparticles can be prepared having modified surfaces or portions thereof,where the modified particles have improved aggregation tendencies and/orpropensities and/or alter particle zeta potentials. The inventors havealso found that the compositions and/or the modifiedmetal-oxide-containing solid or other solid particles can be used in oilfield applications including drilling, fracturing, producing, injecting,sand control, or any other downhold application. The inventors have alsofound that the modified particulate metal-oxide-containing solidparticles or particles of any other solid material can be used any otherapplication where increased particle aggregation potentials aredesirable or where decreased absolute values of the zeta potential ofthe particles, which is a measure of aggregation propensity. Theinventors have also found that a coated particulatemetal-oxide-containing solid compositions can be formed, where thecoating is deformable and the coated particles tend to self-aggregateand tend to cling to surfaces having similar coatings or having similarchemical and/or physical properties to that of the coating. That is tosay, that the coated particles tend to prefer like compositions, whichincrease their self-aggregation propensity and increase their ability toadhere to surface that have similar chemical and/or physical properties.The inventors have found that the coating compositions of this inventionare distinct from known compositions for modifying particle aggregationpropensities and that the coated particles are ideally suited asproppants, where the particles have altered zeta potentials that changethe charge on the particles causing them to attract and agglomerate. Thechange in zeta potential or aggregation propensity causes each particleto have an increased frictional drag keeping the proppant in thefracture. The compositions are also ideally suited for decreasing finesmigrating into a fracture pack or to decrease the adverse impact offines migration into a fractured pack.

Compositions

The invention broadly relates to a composition including an amine and aphosphate ester. The composition modifies surfaces of solid materials orportions thereof altering the chemical and/or physical properties of thesurfaces. The altered properties permit the surfaces to become selfattracting or to permit the surfaces to be attractive to material havingsimilar chemical and/or physical properties. In the case of particlesincluding metal oxide particles such as particles of silica, alumina,titania, magnesia, zirconia, other metal oxides or oxides including amixture of these metal oxides (natural or synthetic), the compositionforms a complete or partial coating on the surfaces of the particles.The coating can interact with the surface by chemical and/or physicalinteractions including, without limitation, chemical bonds, hydrogenbonds, electrostatic interactions, dipolar interactions,hyperpolarizability interactions, cohesion, adhesion, adherence,mechanical adhesion or any other chemical and/or physical interactionthat allows a coating to form on the particles. The coated particleshave a greater aggregation or agglomeration propensity than the uncoatedparticles. Thus, the particles before treatment may be free flowing,while after coating are not free flowing, but tend to clump, aggregateor agglomerate. In cases, where the composition is used to coat surfacesof a geological formation, a synthetic metal oxide structure and/ormetal-oxide containing particles, the particles will not only tend toaggregate together, the particles also will tend to cling to the coatedformation or structural surfaces.

Treated Structures and Substrates

The present invention also broadly relates to structures and substratestreated with a composition of this invention, where the structures andsubstrates include surfaces that are partially or completely coated witha composition of this invention. The structures or substrates can beceramic or metallic or fibrous. The structures or substrates can be spunsuch as a glass wool or steel wool or can be honeycombed like catalyticconverters or the like that include channels that force fluid to flowthrough tortured paths so that particles in the fluid are forced incontact with the substrate or structured surfaces. Such structures orsubstrates are ideally suited as particulate filters or sand controlmedia.

Methods for Treating Particulate Solids

The present invention broadly relates to a method for treating metaloxide-containing surfaces including the step of contacting the metaloxide-containing surface with a composition of this invention. Thecomposition forms a coating on the surface altering the properties ofthe surface so that the surface is now capable to interacting withsimilarly treated surfaces to form agglomerated and/or aggregatedstructures. The treating can be designed to coat continuous metal oxidecontaining surfaces and/or the surfaces of metal oxide containingparticles. If both are treated, then the particles cannot onlyself-aggregate, but the particles can also aggregate, agglomerate and/orcling to the coated continuous surfaces. The compositions can be used infracturing fluids, in drilling fluids, in completion fluids, in sandcontrol applications or any other downhole application. Additionally,the coated particles can be used in fracturing fluids. Moreover,structures, screens or filters coated with the compositions of thisinvention can be used to attract and remove fines that have beenmodified with the compositions of this invention.

Method for Fracturing and/or Propping

The present invention broadly relates to methods for fracturing aformation including the step of pumping a fracturing fluid including acomposition of this invention into a producing formation at a pressuresufficient to fracture the formation. The composition modifies anaggregation potential and/or zeta-potential of formation particles andformation surfaces during fracturing so that the formation particlesaggregate and/or cling to the formation surfaces or each otherincreasing fracturing efficiency and increasing productivity of thefracture formation. The composition of this invention can also be usedin a pre-pad step to modify the surfaces of the formation so that duringfracturing the formation surfaces are pre-coated. The prepad stepinvolves pumping a fluid into the formation ahead of the treatment toinitiate the fracture and to expose the formation face with fluidsdesigned to protect the formation. Beside just using the composition aspart of the fracturing fluid, the fracturing fluid can also includeparticles that have been prior treated with the composition of thisinvention, where the treated particles act as proppants to prop open theformation after fracturing. If the fracturing fluid also includes thecomposition, then the coated particle proppant will adhere to formationsurfaces to a greater degree than would uncoated particle proppant.

In an alternate embodiment of this invention, the fracturing fluidincludes particles coated with a composition of this invention asproppant. In this embodiment, the particles have a greaterself-aggregation propensity and will tend to aggregate in locations thatmay most need to be propped open. In all fracturing applicationsincluding proppants coated with or that become coated with thecomposition of this invention during fracturing, the coated proppantsare likely to have improved formation penetration and adherenceproperties. These greater penetration and adherence or adhesionproperties are due not only to a difference in the surface chemistry ofthe particles relative to the surface chemistry of un-treated particles,but also due to a deformability of the coating itself. Thus, theinventors believe that as the particles are being forced into theformation, the coating will deform to allow the particles to penetrateinto a position and as the pressure is removed the particles will tendto remain in place due to the coating interaction with the surface anddue to the relaxation of the deformed coating. In addition, theinventors believe that the altered aggregation propensity of theparticles will increase proppant particle density in regions of theformation most susceptible to proppant penetration resulting in anenhance degree of formation propping. For additional information onfracturing fluid components that may be used with the fracturing fluidsof this invention the reader is referred to U.S. Pat. Nos. 7,140,433,7,517,447, 7,268,100, 7,392,847, 7,350,579, 7,712,535, and 7,565,933;and United States Published Applications Nos. 20070032693, 20050137114,20090250659, 20050250666, 20080039345, 20060194700, 20070173414,20070129257, 20080257553, 20090203553, 20070173413, 20080318812,20080287325, 20080314124, 20080269082, 20080197085, 20080257554,20080251252, 20090151959, 20090200033, 20090200027, 20100000795,20100012901, 20090067931, 20080283242, 20100077938, 20100122815, and20090275488. These applications and patents are incorporated byreference through the operation of the last paragraph of thespecification.

Method for Producing

The present invention also broadly relates to a method for producingincluding the step of circulating and/or pumping a fluid into, where thefluid includes a composition of this invention, which increases anaggregation potential or decreases an absolute value of the zetapotential of any particulate solid including a metal oxide-containingsolid in the fluid or that becomes entrained in the fluid to increasesolids removal and to decrease the potential of the particles pluggingthe formation and/or production tubing.

New Disclosure

The inventors have found that compositions and methods using thatcompositions can be implemented, where the compositions modify a ZetaPotential by coating of metal oxide surfaces of a reservoir or formationto increase oil recovery in oil producing reservoir or formations. Thecoating is adapted to modify surface properties or the surfaces and theparticles decreasing oil residual saturation through producing reservoiror formation.

The inventors have found that chemical compositions originally designedand used as aggregating agents can be applied to meal oxides surfaces,especially metal oxide surfaces in oil-bearing formations, to increaseoil production during squeeze job operations of producing wells or ininjection wells to increase oil production by decreasing a residual oilsaturation by means of decreasing a capillary pressure on the formation.The coating compositions of this invention include an amine component,an aminephosphate ester component and optionally a solvent component,where the aminephosphate ester component is generally a reaction productof an amine or mixture of amines and a phosphate reagent or mixture ofphosphate reagents. The phosphate reagents may be phosphoric acid,polyphosphoric acid, phosphate esters or any other phosphate containingcompound that will react with an amine.

Basically, the difference of the present approach to the use ofsurfactants and polymers is that the present compositions coat metaloxide surfaces of oil producing reservoirs and formations decreasing thecapillary pressure at low oil saturation permitting increased productionfluids out of the producing formations increasing oil production and/orrecovery from the reservoir or formation. In certain embodiments, thecoating are long lasting. In other embodiments, the coatings aresubstantially permanent changing the wettability more towards waterwetting. In other embodiments, the coatings are permanent. In certainembodiments, the compositions include alkyl pyridinium phosphate estersincluding an alkyl amine components, an aminephosphate ester reactionproduct and optionally a solvent.

The inventors have also found that the chemical systems of thisinvention may also include aggregating agents for controlling proppantflow back and fine movement during squeeze jobs and in enhanced oilrecovery (EOR) operations, while the coating agents increase productionfluid production. The product is applied as a pump in fluid toconsolidate the formation sand and prevent proppant flowback. Theinvention is to use aminephosphate ester reaction product chemistry fora new application in sand control and EOR operations.

Suitable Agents

Suitable amines for the amine component include, without limitation, anamine of the general formula R¹,R²NH or mixtures or combinationsthereof, where R¹ and R² are independently a hydrogen atom or a carbylgroup having between about between about 1 and 40 carbon atoms and therequired hydrogen atoms to satisfy the valence, where at least R¹ or R²is a nitrogen containing heterocycle, and where one or more of thecarbon atoms can be replaced by one or more hetero atoms selected fromthe group consisting of boron, nitrogen, oxygen, phosphorus, sulfur ormixture or combinations thereof and where one or more of the hydrogenatoms can be replaced by one or more single valence atoms selected fromthe group consisting of fluorine, chlorine, bromine, iodine or mixturesor combinations thereof. Exemplary examples of amines suitable for usein this invention include, without limitation, pyridines and alkylpyridines or mixtures of alkyl pyridines, pyrrole and alkyl pyrroles ormixtures of alkyl pyrroles, piperidine and alkyl piperidines or mixturesof alkyl piperidines, pyrrolidine and alkyl pyrrolidines or mixtures ofalkyl pyrrolidines, indole and alkyl indoles or mixture of alkylindoles, imidazole and alkyl imidazole or mixtures of alkyl imidazole,quinoline and alkyl quinoline or mixture of alkyl quinoline,isoquinoline and alkyl isoquinoline or mixture of alkyl isoquinoline,pyrazine and alkyl pyrazine or mixture of alkyl pyrazine, quinoxalineand alkyl quinoxaline or mixture of alkyl quinoxaline, acridine andalkyl acridine or mixture of alkyl acridine, pyrimidine and alkylpyrimidine or mixture of alkyl pyrimidine, quinazoline and alkylquinazoline or mixture of alkyl quinazoline, or mixtures or combinationsthereof. In certain embodiments, the amines of the amine componentscomprise alkyl pyridines.

Suitable amines for preparing the amine-phosphate ester reactionproducts include, without limitation, any amine that is capable ofreacting with a suitable phosphate ester to form a composition thatforms a deformable coating on a metal-oxide-containing surface.Exemplary examples of such amines include, without limitation, any amineof the general formula R¹,R²NH or mixtures or combinations thereof,where R¹ and R² are independently a hydrogen atom or a carbyl grouphaving between about between about 1 and 40 carbon atoms and therequired hydrogen atoms to satisfy the valence and where one or more ofthe carbon atoms can be replaced by one or more hetero atoms selectedfrom the group consisting of boron, nitrogen, oxygen, phosphorus, sulfuror mixture or combinations thereof and where one or more of the hydrogenatoms can be replaced by one or more single valence atoms selected fromthe group consisting of fluorine, chlorine, bromine, iodine or mixturesor combinations thereof. Exemplary examples of amines suitable for usein this invention include, without limitation, aniline and alkylanilines or mixtures of alkyl anilines, pyridines and alkyl pyridines ormixtures of alkyl pyridines, pyrrole and alkyl pyrroles or mixtures ofalkyl pyrroles, piperidine and alkyl piperidines or mixtures of alkylpiperidines, pyrrolidine and alkyl pyrrolidines or mixtures of alkylpyrrolidines, indole and alkyl indoles or mixture of alkyl indoles,imidazole and alkyl imidazole or mixtures of alkyl imidazole, quinolineand alkyl quinoline or mixture of alkyl quinoline, isoquinoline andalkyl isoquinoline or mixture of alkyl isoquinoline, pyrazine and alkylpyrazine or mixture of alkyl pyrazine, quinoxaline and alkyl quinoxalineor mixture of alkyl quinoxaline, acridine and alkyl acridine or mixtureof alkyl acridine, pyrimidine and alkyl pyrimidine or mixture of alkylpyrimidine, quinazoline and alkyl quinazoline or mixture of alkylquinazoline, or mixtures or combinations thereof.

Suitable phosphate esters for preparing the amine-phosphate esterreaction products include, without limitation, any phosphate ester thatis capable of reacting with a suitable amine to form a composition thatforms a deformable coating on a metal-oxide containing surface orpartially or completely coats particulate materials. Exemplary examplesof such phosphate esters include, without limitation, any phosphateesters of the general formula P(O)(OR³)(OR⁴)(OR⁵) or mixture orcombinations thereof, where R³, R⁴, and OR⁵ are independently a hydrogenatom or a carbyl group having between about between about 1 and 40carbon atoms and the required hydrogen atoms to satisfy the valence andwhere one or more of the carbon atoms can be replaced by one or morehetero atoms selected from the group consisting of boron, nitrogen,oxygen, phosphorus, sulfur or mixture or combinations thereof and whereone or more of the hydrogen atoms can be replaced by one or more singlevalence atoms selected from the group consisting of fluorine, chlorine,bromine, iodine or mixtures or combinations thereof. Exemplary examplesof phosphate esters include, without limitation, phosphate ester ofalkanols having the general formula P(O)(OH)_(x)(OR⁶)_(y) where x+y=3and are independently a hydrogen atom or a carbyl group having betweenabout between about 1 and 40 carbon atoms and the required hydrogenatoms to satisfy the valence and where one or more of the carbon atomscan be replaced by one or more hetero atoms selected from the groupconsisting of boron, nitrogen, oxygen, phosphorus, sulfur or mixture orcombinations thereof and where one or more of the hydrogen atoms can bereplaced by one or more single valence atoms selected from the groupconsisting of fluorine, chlorine, bromine, iodine or mixtures orcombinations thereof such as ethoxy phosphate, propoxyl phosphate orhigher alkoxy phosphates or mixtures or combinations thereof. Otherexemplary examples of phosphate esters include, without limitation,phosphate esters of alkanol amines having the general formulaN[R⁷OP(O)(OH)₂]₃ where R⁷ is a carbenyl group having between aboutbetween about 1 and 40 carbon atoms and the required hydrogen atoms tosatisfy the valence and where one or more of the carbon atoms can bereplaced by one or more hetero atoms selected from the group consistingof boron, nitrogen, oxygen, phosphorus, sulfur or mixture orcombinations thereof and where one or more of the hydrogen atoms can bereplaced by one or more single valence atoms selected from the groupconsisting of fluorine, chlorine, bromine, iodine or mixtures orcombinations thereof group including the tri-phosphate ester oftri-ethanol amine or mixtures or combinations thereof. Other exemplaryexamples of phosphate esters include, without limitation, phosphateesters of hydroxylated aromatics such as phosphate esters of alkylatedphenols such as Nonylphenyl phosphate ester or phenolic phosphateesters. Other exemplary examples of phosphate esters include, withoutlimitation, phosphate esters of diols and polyols such as phosphateesters of ethylene glycol, propylene glycol, or higher glycolicstructures. Other exemplary phosphate esters include any phosphate esterthan can react with an amine and coated on to a substrate forms adeformable coating enhancing the aggregating potential of the substrate.Other exemplary phosphate esters are reaction products of polyphosphoricacid and amines. Other exemplary phosphate esters are reaction productsof polyphosphoric acid and alkanolamines.

EXPERIMENTS OF THE INVENTION Comparative Example 1

This example illustrates procedure used in the preparation of the ZetaPotential altering system, a flow enhancing coating compositions of thisinvention.

59.0% w/w A1010, Alkolidine 11 a mix of alkyl pyridine from Lonza, wasadded to 32.7% w/w Methanol and mixed for 15 minutes. To this mixturewas added 8.00% w/w of A2290, a phosphate ester prepared from reacting78.50% w/w polyphosphoric acid and 21.50% w/w tri-ethanolamine. Themixture was stirred for 30 minutes.

Example 1

This example illustrates procedure used in the preparation a zetamodifying composition of this invention.

23% w/w PAP-220, a mix of alkyl pyridines from Vertelus is added to amixture of 23% w/w ethylene glycol and 23% w/w methanol and stirred for15 minutes. To this mixture was added 23% HAP-310, a mixture of alkylpyridines with less than 5% of lutidine (di-methyl pryridines) andstirred for 15 minutes. To this mixtures was added 8.00% w/w A2240, aphosphate ester by reacting 53.91% w/w polyphosphoric acid, 31.91% w/wtri-ethanolamine in 14.18% w/w water and stirred for 30 minutes.

Example 2

A 2% KCl brine was prepared having a 0 wt. % concentration of thecoating composition of Example 1 designated S0.

Example 3

A 2% KCl brine was prepared having a 1 wt. % concentration of thecoating composition of Example 1 designated S1.

Example 4

A 2% KCl brine was prepared having a 10 wt. % concentration of thecoating composition of Example 1 designated S2.

Example 5

Berea sandstone samples were treated with compositions S0, S1 and S2.The sandstone sample were then tested for modification of properties.Table 1 and Table 2 tabulates the results of the testing and FIG. 1illustrate the results of the testing.

TABLE 1 Permeability to Air, Porosity, and USMB Wettability MeasurementsAir Permeability @ 800 psi Porosity @ 800 psi Sample mD Fractional W^(a)S0^(b) 90.5 0.180 0.917 S1^(c) 88.8 0.179 1.049 S2^(d) 88.0 0.179 1.165^(a)W represents the USBM (U.S. Bureau of Mines) wettability Indexdefined as W = log A1/A2, USBM (U.S. Bureau of Mines) method. This is amacroscopic mean wettability of a rock to given fluids. It has novalidity as an absolute measurement, but is industry standard forcomparing the wettability of various core plugs. Scale:- 1 full OilWettability, 0 neutral wettability and 1 full water wettability ^(b)S0 -0% coating composition of Example 2, ^(c)S1 - 1% coating composition ofExample 2, ^(d)2 - 10% coating composition of Example 2

TABLE 2 Sandstone PV Values Berea Sandstone Sample PV Untreated 42.4%Treated with S1 37.3% Treated with S2 27.8%

Referring now to FIG. 1, a plot of oil/brine capillary pressure in psiversus water saturation (percent pore space) of Berea sandstone samplestreated with a solution including 0 wt % of the zeta potential modifierof Example 1, a solution including 1 wt % of the zeta potential modifierof Example 1 and a solution including 10 wt % of the zeta potentialmodifier of Example 1. It is clear form the data that the zeta potentialmodifier of Example 1 markedly changed the behavior of the Bereasandstone even at concentrations as low as 1 wt. %, with even a greaterchange in behavior at concentrations of 10 wt. %. This data represents asignificant and permanent or substantially permanent modification of theflow characteristics of Berea sandstone to reduce residual oilsaturation of the Berea sandstone.

All references cited herein are incorporated by reference. Although theinvention has been disclosed with reference to its preferredembodiments, from reading this description those of skill in the art mayappreciate changes and modification that may be made which do not departfrom the scope and spirit of the invention as described above andclaimed hereafter.

We claim:
 1. A coating composition comprising: an amine component and anaminephosphate component, where the coating composition changes, alters,and/or modifies surface properties of a formation particulate material,a solid material, a substrate and/or a surface of a producing formationand/or changes, alters, and/or modifies a zeta potential and/oraggregating propensity of the formation particulate material, the solidmaterial, the substrate and/or the surface of the producing formationsdecreasing residual oil saturation in the producing formation.
 2. Thecomposition of claim 1, further comprising: a solvent component.
 3. Thecomposition of claim 2, wherein the solvent components comprises loweralcohols having between 1 and about 4 carbon atoms, glycols, acetates,other oxygen containing solvents or mixtures and combinations thereof 4.The composition of claim 1, wherein the aminephosphate componentcomprises a reaction product between an amine or a mixture of amines anda phosphate compound or a mixture of phosphate compounds.
 5. Thecomposition of claim 4, wherein the amines comprise amines capable ofreacting with the phosphate compounds to form an aminephosphatecomponent and the phosphate compounds comprise phosphate compoundscapable of reacting with the amines to form an aminephosphate component.6. The composition of claim 5, wherein: the amines comprise amines ofthe general formula R¹,R²NH or mixtures or combinations thereof, whereR¹ and R² are independently a hydrogen atom or a carbyl group havingbetween about between about 1 and 40 carbon atoms and the requiredhydrogen atoms to satisfy the valence and where one or more of thecarbon atoms can be replaced by one or more hetero atoms selected fromthe group consisting of boron, nitrogen, oxygen, phosphorus, sulfur ormixture or combinations thereof and where one or more of the hydrogenatoms can be replaced by one or more single valence atoms selected fromthe group consisting of fluorine, chlorine, bromine, iodine or mixturesor combinations thereof; the phosphate compounds comprise phosphateesters of the general formula P(O)(OR³)(OR⁴)(OR⁵), phosphoric acid,polyphosphoric acid, or mixture or combinations thereof, where R³, R⁴,and OR⁵ are independently a hydrogen atom or a carbyl group havingbetween about between about 1 and 40 carbon atoms and the requiredhydrogen atoms to satisfy the valence and where one or more of thecarbon atoms can be replaced by one or more hetero atoms selected fromthe group consisting of boron, nitrogen, oxygen, phosphorus, sulfur ormixture or combinations thereof and where one or more of the hydrogenatoms can be replaced by one or more single valence atoms selected fromthe group consisting of fluorine, chlorine, bromine, iodine or mixturesor combinations thereof; and the amine component comprises an amine ofthe general formula R³,R⁴NH or mixtures or combinations thereof, whereR³ and R⁴ are independently a hydrogen atom or a carbyl group havingbetween about between about 1 and 40 carbon atoms and the requiredhydrogen atoms to satisfy the valence, where at least R³ or R⁴ is anitrogen containing heterocycle, and where one or more of the carbonatoms can be replaced by one or more hetero atoms selected from thegroup consisting of boron, nitrogen, oxygen, phosphorus, sulfur ormixture or combinations thereof and where one or more of the hydrogenatoms can be replaced by one or more single valence atoms selected fromthe group consisting of fluorine, chlorine, bromine, iodine or mixturesor combinations thereof.
 7. The composition of claim 6, wherein: theamines comprise aniline and alkyl anilines or mixtures of alkylanilines, pyridines and alkyl pyridines or mixtures of alkyl pyridines,pyrrole and alkyl pyrroles or mixtures of alkyl pyrroles, piperidine andalkyl piperidines or mixtures of alkyl piperidines, pyrrolidine andalkyl pyrrolidines or mixtures of alkyl pyrrolidines, indole and alkylindoles or mixture of alkyl indoles, imidazole and alkyl imidazole ormixtures of alkyl imidazole, quinoline and alkyl quinoline or mixture ofalkyl quinoline, isoquinoline and alkyl isoquinoline or mixture of alkylisoquinoline, pyrazine and alkyl pyrazine or mixture of alkyl pyrazine,quinoxaline and alkyl quinoxaline or mixture of alkyl quinoxaline,acridine and alkyl acridine or mixture of alkyl acridine, pyrimidine andalkyl pyrimidine or mixture of alkyl pyrimidine, quinazoline and alkylquinazoline or mixture of alkyl quinazoline, or mixtures or combinationsthereof; the phosphate compounds comprise phosphate esters includephosphate ester of alkanols having the general formulaP(O)(OH)_(x)(OR⁶)_(y) where x+y=3 and are independently a hydrogen atomor a carbyl group having between about between about 1 and 40 carbonatoms and the required hydrogen atoms to satisfy the valence and whereone or more of the carbon atoms can be replaced by one or more heteroatoms selected from the group consisting of boron, nitrogen, oxygen,phosphorus, sulfur or mixture or combinations thereof and where one ormore of the hydrogen atoms can be replaced by one or more single valenceatoms selected from the group consisting of fluorine, chlorine, bromine,iodine or mixtures or combinations thereof such as ethoxy phosphate,propoxyl phosphate or higher alkoxy phosphates or mixtures orcombinations thereof; the amine component comprises pyridines and alkylpyridines or mixtures of alkyl pyridines, pyrrole and alkyl pyrroles ormixtures of alkyl pyrroles, piperidine and alkyl piperidines or mixturesof alkyl piperidines, pyrrolidine and alkyl pyrrolidines or mixtures ofalkyl pyrrolidines, indole and alkyl indoles or mixture of alkylindoles, imidazole and alkyl imidazole or mixtures of alkyl imidazole,quinoline and alkyl quinoline or mixture of alkyl quinoline,isoquinoline and alkyl isoquinoline or mixture of alkyl isoquinoline,pyrazine and alkyl pyrazine or mixture of alkyl pyrazine, quinoxalineand alkyl quinoxaline or mixture of alkyl quinoxaline, acridine andalkyl acridine or mixture of alkyl acridine, pyrimidine and alkylpyrimidine or mixture of alkyl pyrimidine, quinazoline and alkylquinazoline or mixture of alkyl quinazoline, or mixtures or combinationsthereof.
 8. The composition of claim 7, wherein the amine componentcomprises alkyl pyridines.
 9. A coated surface composition comprising: asurface of a producing formation or a substrate partially or completelycoated with a coating composition comprising: an amine component, and anaminephosphate ester component, where the coating composition changes,alters, and/or modifies surface properties of the formation or substratesurface and/or changes, alters, and/or modifies a zeta potential and/oraggregating propensity of the formation or substrate surface decreasingresidual oil saturation in the producing formation.
 10. The compositionof claim 9, further comprising: a solvent component.
 11. The compositionof claim 10, wherein the solvent components comprises lower alcoholshaving between 1 and about 4 carbon atoms, glycols, acetates, otheroxygen containing solvents or mixtures and combinations thereof
 12. Thecomposition of claim 11, wherein the aminephosphate component comprisesa reaction product between an amine or a mixture of amines and aphosphate compound or a mixture of phosphate compounds.
 13. Thecomposition of claim 12, wherein the amines comprise amines capable ofreacting with the phosphate compounds to form an aminephosphatecomponent and the phosphate compounds comprise phosphate compoundscapable of reacting with the amines to form an aminephosphate component.14. The composition of claim 13, wherein: the amines comprise amines ofthe general formula R¹,R²NH or mixtures or combinations thereof, whereR¹ and R² are independently a hydrogen atom or a carbyl group havingbetween about between about 1 and 40 carbon atoms and the requiredhydrogen atoms to satisfy the valence and where one or more of thecarbon atoms can be replaced by one or more hetero atoms selected fromthe group consisting of boron, nitrogen, oxygen, phosphorus, sulfur ormixture or combinations thereof and where one or more of the hydrogenatoms can be replaced by one or more single valence atoms selected fromthe group consisting of fluorine, chlorine, bromine, iodine or mixturesor combinations thereof; the phosphate compounds comprise phosphateesters of the general formula P(O)(OR³)(OR⁴)(OR⁵), phosphoric acid,polyphosphoric acid, or mixture or combinations thereof, where R³, R⁴,and OR⁵ are independently a hydrogen atom or a carbyl group havingbetween about between about 1 and 40 carbon atoms and the requiredhydrogen atoms to satisfy the valence and where one or more of thecarbon atoms can be replaced by one or more hetero atoms selected fromthe group consisting of boron, nitrogen, oxygen, phosphorus, sulfur ormixture or combinations thereof and where one or more of the hydrogenatoms can be replaced by one or more single valence atoms selected fromthe group consisting of fluorine, chlorine, bromine, iodine or mixturesor combinations thereof; and the amine component comprises an amine ofthe general formula R³,R⁴NH or mixtures or combinations thereof, whereR³ and R⁴ are independently a hydrogen atom or a carbyl group havingbetween about between about 1 and 40 carbon atoms and the requiredhydrogen atoms to satisfy the valence, where at least R³ or R⁴ is anitrogen containing heterocycle, and where one or more of the carbonatoms can be replaced by one or more hetero atoms selected from thegroup consisting of boron, nitrogen, oxygen, phosphorus, sulfur ormixture or combinations thereof and where one or more of the hydrogenatoms can be replaced by one or more single valence atoms selected fromthe group consisting of fluorine, chlorine, bromine, iodine or mixturesor combinations thereof.
 15. The composition of claim 14, wherein: theamines comprise aniline and alkyl anilines or mixtures of alkylanilines, pyridines and alkyl pyridines or mixtures of alkyl pyridines,pyrrole and alkyl pyrroles or mixtures of alkyl pyrroles, piperidine andalkyl piperidines or mixtures of alkyl piperidines, pyrrolidine andalkyl pyrrolidines or mixtures of alkyl pyrrolidines, indole and alkylindoles or mixture of alkyl indoles, imidazole and alkyl imidazole ormixtures of alkyl imidazole, quinoline and alkyl quinoline or mixture ofalkyl quinoline, isoquinoline and alkyl isoquinoline or mixture of alkylisoquinoline, pyrazine and alkyl pyrazine or mixture of alkyl pyrazine,quinoxaline and alkyl quinoxaline or mixture of alkyl quinoxaline,acridine and alkyl acridine or mixture of alkyl acridine, pyrimidine andalkyl pyrimidine or mixture of alkyl pyrimidine, quinazoline and alkylquinazoline or mixture of alkyl quinazoline, or mixtures or combinationsthereof; the phosphate compounds comprise phosphate esters includephosphate ester of alkanols having the general formulaP(O)(OH)_(x)(OR⁶)_(y) where x+y=3 and are independently a hydrogen atomor a carbyl group having between about between about 1 and 40 carbonatoms and the required hydrogen atoms to satisfy the valence and whereone or more of the carbon atoms can be replaced by one or more heteroatoms selected from the group consisting of boron, nitrogen, oxygen,phosphorus, sulfur or mixture or combinations thereof and where one ormore of the hydrogen atoms can be replaced by one or more single valenceatoms selected from the group consisting of fluorine, chlorine, bromine,iodine or mixtures or combinations thereof such as ethoxy phosphate,propoxyl phosphate or higher alkoxy phosphates or mixtures orcombinations thereof; and the amine component comprises pyridines andalkyl pyridines or mixtures of alkyl pyridines, pyrrole and alkylpyrroles or mixtures of alkyl pyrroles, piperidine and alkyl piperidinesor mixtures of alkyl piperidines, pyrrolidine and alkyl pyrrolidines ormixtures of alkyl pyrrolidines, indole and alkyl indoles or mixture ofalkyl indoles, imidazole and alkyl imidazole or mixtures of alkylimidazole, quinoline and alkyl quinoline or mixture of alkyl quinoline,isoquinoline and alkyl isoquinoline or mixture of alkyl isoquinoline,pyrazine and alkyl pyrazine or mixture of alkyl pyrazine, quinoxalineand alkyl quinoxaline or mixture of alkyl quinoxaline, acridine andalkyl acridine or mixture of alkyl acridine, pyrimidine and alkylpyrimidine or mixture of alkyl pyrimidine, quinazoline and alkylquinazoline or mixture of alkyl quinazoline, or mixtures or combinationsthereof.
 16. The composition of claim 15, wherein the amine componentcomprises alkyl pyridines.
 17. A coated particulate compositioncomprising: a particulate material partially or completely coated with acoating composition comprising: an amine component, and anaminephosphate ester component, where the particulate material includesa formation particulate material or a proppant solid material and wherethe coating composition changes, alters, and/or modifies surfaceproperties of the formation particulate material and/or the solidmaterial, a substrate and/or a surface of a producing formation and/orchanges, alters, and/or modifies a zeta potential and/or aggregatingpropensity of the formation particulate material, the solid material,the substrate and/or the surface of the producing formations decreasingresidual oil saturation in the producing formation.
 18. The compositionof claim 17, further comprising: a solvent component.
 19. Thecomposition of claim 18, wherein the solvent components comprises loweralcohols having between 1 and about 4 carbon atoms, glycols, acetates,other oxygen containing solvents or mixtures and combinations thereof20. The composition of claim 21, wherein the aminephosphate componentcomprises a reaction product between an amine or a mixture of amines anda phosphate compound or a mixture of phosphate compounds.
 21. Thecomposition of claim 20, wherein the amines comprise amines capable ofreacting with the phosphate compounds to form an aminephosphatecomponent and the phosphate compounds comprise phosphate compoundscapable of reacting with the amines to form an aminephosphate component.22. The composition of claim 21, wherein: the amines comprise amines ofthe general formula R¹,R²NH or mixtures or combinations thereof, whereR¹ and R² are independently a hydrogen atom or a carbyl group havingbetween about between about 1 and 40 carbon atoms and the requiredhydrogen atoms to satisfy the valence and where one or more of thecarbon atoms can be replaced by one or more hetero atoms selected fromthe group consisting of boron, nitrogen, oxygen, phosphorus, sulfur ormixture or combinations thereof and where one or more of the hydrogenatoms can be replaced by one or more single valence atoms selected fromthe group consisting of fluorine, chlorine, bromine, iodine or mixturesor combinations thereof; the phosphate compounds comprise phosphateesters of the general formula P(O)(OR³)(OR⁴)(OR⁵), phosphoric acid,polyphosphoric acid, or mixture or combinations thereof, where R³, R⁴,and OR⁵ are independently a hydrogen atom or a carbyl group havingbetween about between about 1 and 40 carbon atoms and the requiredhydrogen atoms to satisfy the valence and where one or more of thecarbon atoms can be replaced by one or more hetero atoms selected fromthe group consisting of boron, nitrogen, oxygen, phosphorus, sulfur ormixture or combinations thereof and where one or more of the hydrogenatoms can be replaced by one or more single valence atoms selected fromthe group consisting of fluorine, chlorine, bromine, iodine or mixturesor combinations thereof; and the amine component comprises an amine ofthe general formula R³,R⁴NH or mixtures or combinations thereof, whereR³ and R⁴ are independently a hydrogen atom or a carbyl group havingbetween about between about 1 and 40 carbon atoms and the requiredhydrogen atoms to satisfy the valence, where at least R³ or R⁴ is anitrogen containing heterocycle, and where one or more of the carbonatoms can be replaced by one or more hetero atoms selected from thegroup consisting of boron, nitrogen, oxygen, phosphorus, sulfur ormixture or combinations thereof and where one or more of the hydrogenatoms can be replaced by one or more single valence atoms selected fromthe group consisting of fluorine, chlorine, bromine, iodine or mixturesor combinations thereof.
 23. The composition of claim 22, wherein: theamines comprise aniline and alkyl anilines or mixtures of alkylanilines, pyridines and alkyl pyridines or mixtures of alkyl pyridines,pyrrole and alkyl pyrroles or mixtures of alkyl pyrroles, piperidine andalkyl piperidines or mixtures of alkyl piperidines, pyrrolidine andalkyl pyrrolidines or mixtures of alkyl pyrrolidines, indole and alkylindoles or mixture of alkyl indoles, imidazole and alkyl imidazole ormixtures of alkyl imidazole, quinoline and alkyl quinoline or mixture ofalkyl quinoline, isoquinoline and alkyl isoquinoline or mixture of alkylisoquinoline, pyrazine and alkyl pyrazine or mixture of alkyl pyrazine,quinoxaline and alkyl quinoxaline or mixture of alkyl quinoxaline,acridine and alkyl acridine or mixture of alkyl acridine, pyrimidine andalkyl pyrimidine or mixture of alkyl pyrimidine, quinazoline and alkylquinazoline or mixture of alkyl quinazoline, or mixtures or combinationsthereof; the phosphate compounds comprise phosphate esters includephosphate ester of alkanols having the general formulaP(O)(OH)_(x)(OR⁶)_(y) where x+y=3 and are independently a hydrogen atomor a carbyl group having between about between about 1 and 40 carbonatoms and the required hydrogen atoms to satisfy the valence and whereone or more of the carbon atoms can be replaced by one or more heteroatoms selected from the group consisting of boron, nitrogen, oxygen,phosphorus, sulfur or mixture or combinations thereof and where one ormore of the hydrogen atoms can be replaced by one or more single valenceatoms selected from the group consisting of fluorine, chlorine, bromine,iodine or mixtures or combinations thereof such as ethoxy phosphate,propoxyl phosphate or higher alkoxy phosphates or mixtures orcombinations thereof; and the amine component comprises pyridines andalkyl pyridines or mixtures of alkyl pyridines, pyrrole and alkylpyrroles or mixtures of alkyl pyrroles, piperidine and alkyl piperidinesor mixtures of alkyl piperidines, pyrrolidine and alkyl pyrrolidines ormixtures of alkyl pyrrolidines, indole and alkyl indoles or mixture ofalkyl indoles, imidazole and alkyl imidazole or mixtures of alkylimidazole, quinoline and alkyl quinoline or mixture of alkyl quinoline,isoquinoline and alkyl isoquinoline or mixture of alkyl isoquinoline,pyrazine and alkyl pyrazine or mixture of alkyl pyrazine, quinoxalineand alkyl quinoxaline or mixture of alkyl quinoxaline, acridine andalkyl acridine or mixture of alkyl acridine, pyrimidine and alkylpyrimidine or mixture of alkyl pyrimidine, quinazoline and alkylquinazoline or mixture of alkyl quinazoline, or mixtures or combinationsthereof.
 24. The composition of claim 23, wherein the amine componentcomprises alkyl pyridines.